📄 l1_rtt_macro.h
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/************* Revision Controle System Header *************
* GSM Layer 1 software
* L1_RTT_MACRO.H
*
* Filename %M%
* Copyright 2003 (C) Texas Instruments
*
************* Revision Controle System Header *************/
#if (defined RVM_RTT_SWE || (OP_L1_STANDALONE == 1))
#include "rvt_gen.h"
#include "rtt_gen.h"
extern T_TRACE_INFO_STRUCT trace_info;
/***********************************************************************************************************/
/* Macro for cell enabling checking */
/***********************************************************************************************************/
#define SELECTED_BITMAP(enable_bit) \
enable_bit < 32 ? (0x0001 << (enable_bit - 0)) & trace_info.current_config->rttl1_cell_enable[0] : \
enable_bit < 64 ? (0x0001 << (enable_bit - 32)) & trace_info.current_config->rttl1_cell_enable[1] : \
enable_bit < 96 ? (0x0001 << (enable_bit - 64)) & trace_info.current_config->rttl1_cell_enable[2] : \
enable_bit < 128 ? (0x0001 << (enable_bit - 96)) & trace_info.current_config->rttl1_cell_enable[3] : \
enable_bit < 160 ? (0x0001 << (enable_bit - 128)) & trace_info.current_config->rttl1_cell_enable[4] : \
enable_bit < 192 ? (0x0001 << (enable_bit - 160)) & trace_info.current_config->rttl1_cell_enable[5] : \
enable_bit < 224 ? (0x0001 << (enable_bit - 192)) & trace_info.current_config->rttl1_cell_enable[6] : \
(0x0001 << (enable_bit - 224)) & trace_info.current_config->rttl1_cell_enable[7]
/***********************************************************************************************************/
/* Macros for buffer filling */
/***********************************************************************************************************/
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: FN
#define RTTL1_FILL_FN(param1) \
if(SELECTED_BITMAP(RTTL1_ENABLE_FN)) \
{ \
T_RTT_PTR *ptr; \
T_RTTL1_FN *ptr2; \
\
ptr = (T_RTT_PTR *) &ptr2; \
if ((*ptr = trace_info.l1s_rtt_func.rtt_get_fill_ptr(trace_info.l1s_trace_user_id, sizeof(T_RTTL1_FN))) != NULL) \
{ \
ptr2->fn = param1; \
ptr2->cell_id = RTTL1_ENABLE_FN; \
} \
}
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: Downlink burst
#define RTTL1_FILL_DL_BURST(param1,param2,param3,param4,param5,param6,param7) \
if(SELECTED_BITMAP(RTTL1_ENABLE_DL_BURST)) \
{ \
T_RTT_PTR *ptr; \
T_RTTL1_DL_BURST *ptr2; \
\
ptr = (T_RTT_PTR *) &ptr2; \
if ((*ptr = trace_info.l1s_rtt_func.rtt_get_fill_ptr(trace_info.l1s_trace_user_id, sizeof(T_RTTL1_DL_BURST))) != NULL) \
{ \
ptr2->angle = param1; \
ptr2->snr = param2; \
ptr2->afc = param3; \
ptr2->task = param4; \
ptr2->pm = param5; \
ptr2->toa = param6; \
ptr2->input_level = param7; \
ptr2->cell_id = RTTL1_ENABLE_DL_BURST; \
} \
}
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: Uplink Normal Burst
#define RTTL1_FILL_UL_NB(param1, param2, param3) \
if(SELECTED_BITMAP(RTTL1_ENABLE_UL_NB)) \
{ \
T_RTT_PTR *ptr; \
T_RTTL1_UL_NB *ptr2; \
\
ptr = (T_RTT_PTR *) &ptr2; \
if ((*ptr = trace_info.l1s_rtt_func.rtt_get_fill_ptr(trace_info.l1s_trace_user_id, sizeof(T_RTTL1_UL_NB))) != NULL) \
{ \
ptr2->task = param1; \
ptr2->ta = param2; \
ptr2->txpwr = param3; \
ptr2->cell_id = RTTL1_ENABLE_UL_NB; \
} \
}
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: Uplink Access Burst
#define RTTL1_FILL_UL_AB(param1, param2) \
if(SELECTED_BITMAP(RTTL1_ENABLE_UL_AB)) \
{ \
T_RTT_PTR *ptr; \
T_RTTL1_UL_AB *ptr2; \
\
ptr = (T_RTT_PTR *) &ptr2; \
if ((*ptr = trace_info.l1s_rtt_func.rtt_get_fill_ptr(trace_info.l1s_trace_user_id, sizeof(T_RTTL1_UL_AB))) != NULL) \
{ \
ptr2->task = param1; \
ptr2->txpwr = param2; \
ptr2->cell_id = RTTL1_ENABLE_UL_AB; \
} \
}
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: Full list measurement
#define RTTL1_FILL_FULL_LIST_MEAS(param1, param2, param3, param4) \
if(SELECTED_BITMAP(RTTL1_ENABLE_FULL_LIST_MEAS)) \
{ \
T_RTT_PTR *ptr; \
T_RTTL1_FULL_LIST_MEAS *ptr2; \
\
ptr = (T_RTT_PTR *) &ptr2; \
if ((*ptr = trace_info.l1s_rtt_func.rtt_get_fill_ptr(trace_info.l1s_trace_user_id, sizeof(T_RTTL1_FULL_LIST_MEAS))) != NULL) \
{ \
ptr2->pm = param1; \
ptr2->input_level = param2; \
ptr2->task = param3; \
ptr2->radio_freq = param4; \
ptr2->cell_id = RTTL1_ENABLE_FULL_LIST_MEAS; \
} \
}
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: Full list measurement
#define RTTL1_FILL_MON_MEAS(param1, param2, param3, param4) \
if(SELECTED_BITMAP(RTTL1_ENABLE_MON_MEAS)) \
{ \
T_RTT_PTR *ptr; \
T_RTTL1_MON_MEAS *ptr2; \
\
ptr = (T_RTT_PTR *) &ptr2; \
if ((*ptr = trace_info.l1s_rtt_func.rtt_get_fill_ptr(trace_info.l1s_trace_user_id, sizeof(T_RTTL1_MON_MEAS))) != NULL) \
{ \
ptr2->pm = param1; \
ptr2->input_level = param2; \
ptr2->task = param3; \
ptr2->radio_freq = param4; \
ptr2->cell_id = RTTL1_ENABLE_MON_MEAS; \
} \
}
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: Downlink DCCH block
#define RTTL1_FILL_DL_DCCH(param1, param2) \
if(SELECTED_BITMAP(RTTL1_ENABLE_DL_DCCH)) \
{ \
T_RTT_PTR *ptr; \
T_RTTL1_DL_DCCH *ptr2; \
\
ptr = (T_RTT_PTR *) &ptr2; \
if ((*ptr = trace_info.l1s_rtt_func.rtt_get_fill_ptr(trace_info.l1s_trace_user_id, sizeof(T_RTTL1_DL_DCCH))) != NULL) \
{ \
ptr2->valid_flag = param1; \
ptr2->physical_info = param2; \
ptr2->cell_id = RTTL1_ENABLE_DL_DCCH; \
} \
}
//-----------------------------------------------------------------------------------------------------------
// L1 RTT cell filling: Downlink PTCCH block
#define RTTL1_FILL_DL_PTCCH(param1, param2) \
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